import math

from testutils import assert_raises

NAN = float("nan")
INF = float("inf")
NINF = float("-inf")

1 + 1.1

a = 1.2
b = 1.3
c = 1.2
z = 2
ov = 10**1000

assert -a == -1.2

assert a < b
assert not b < a
assert a <= b
assert a <= c
assert a < z

assert b > a
assert not a > b
assert not a > c
assert b >= a
assert c >= a
assert not a >= b
assert z > a

assert a + b == 2.5
assert a - c == 0
assert a / c == 1
assert a % c == 0
assert a + z == 3.2
assert z + a == 3.2
assert a - z == -0.8
assert z - a == 0.8
assert a / z == 0.6
assert 6 / a == 5.0
assert 2.0 % z == 0.0
assert z % 2.0 == 0.0
assert_raises(OverflowError, lambda: a + ov)
assert_raises(OverflowError, lambda: a - ov)
assert_raises(OverflowError, lambda: a * ov)
assert_raises(OverflowError, lambda: a / ov)
assert_raises(OverflowError, lambda: a // ov)
assert_raises(OverflowError, lambda: a % ov)
assert_raises(OverflowError, lambda: a**ov)
assert_raises(OverflowError, lambda: ov + a)
assert_raises(OverflowError, lambda: ov - a)
assert_raises(OverflowError, lambda: ov * a)
assert_raises(OverflowError, lambda: ov / a)
assert_raises(OverflowError, lambda: ov // a)
assert_raises(OverflowError, lambda: ov % a)
# assert_raises(OverflowError, lambda: ov ** a)

assert a < 5
assert a <= 5
assert a < 5.5
assert a <= 5.5
try:
    assert a < "a"
except TypeError:
    pass
try:
    assert a <= "a"
except TypeError:
    pass
assert a > 1
assert a >= 1
try:
    assert a > "a"
except TypeError:
    pass
try:
    assert a >= "a"
except TypeError:
    pass

assert math.isnan(float("nan"))
assert math.isnan(float("NaN"))
assert math.isnan(float("+NaN"))
assert math.isnan(float("-NaN"))

assert math.isinf(float("inf"))
assert math.isinf(float("Inf"))
assert math.isinf(float("+Inf"))
assert math.isinf(float("-Inf"))

assert float() == 0

assert float("+Inf") > 0
assert float("-Inf") < 0

assert float("3.14") == 3.14
assert float("2.99e-23") == 2.99e-23

assert float(b"3.14") == 3.14
assert float(b"2.99e-23") == 2.99e-23

assert_raises(ValueError, float, "foo")
assert_raises(OverflowError, float, 2**10000)

# check eq and hash for small numbers

assert 1.0 == 1
assert 1.0 == True
assert 0.0 == 0
assert 0.0 == False
assert hash(1.0) == hash(1)
assert hash(1.0) == hash(True)
assert hash(0.0) == hash(0)
assert hash(0.0) == hash(False)
assert hash(1.0) != hash(1.0000000001)

assert 03.2 == 3.2
assert 5.0 in {3, 4, 5}
assert {-1: 2}[-1.0] == 2

# check that magic methods are implemented for ints and floats

assert (1.0).__add__(1.0) == 2.0
assert (1.0).__radd__(1.0) == 2.0
assert (2.0).__sub__(1.0) == 1.0
assert (2.0).__rmul__(1.0) == 2.0
assert (1.0).__truediv__(2.0) == 0.5
assert (1.0).__rtruediv__(2.0) == 2.0
assert (2.5).__divmod__(2.0) == (1.0, 0.5)
assert (2.0).__rdivmod__(2.5) == (1.0, 0.5)

assert (1.0).__add__(1) == 2.0
assert (1.0).__radd__(1) == 2.0
assert (2.0).__sub__(1) == 1.0
assert (2.0).__rmul__(1) == 2.0
assert (1.0).__truediv__(2) == 0.5
assert (1.0).__rtruediv__(2) == 2.0
assert (2.0).__mul__(1) == 2.0
assert (2.0).__rsub__(1) == -1.0
assert (2.0).__mod__(2) == 0.0
assert (2.0).__rmod__(2) == 0.0
assert_raises(ZeroDivisionError, lambda: 2.0 / 0)
assert_raises(ZeroDivisionError, lambda: 2.0 // 0)
assert_raises(ZeroDivisionError, lambda: 2.0 % 0)
assert_raises(ZeroDivisionError, divmod, 2.0, 0)
assert_raises(ZeroDivisionError, lambda: 2 / 0.0)
assert_raises(ZeroDivisionError, lambda: 2 // 0.0)
assert_raises(ZeroDivisionError, lambda: 2 % 0.0)
# assert_raises(ZeroDivisionError, divmod, 2, 0.0)
assert_raises(ZeroDivisionError, lambda: 2.0 / 0.0)
assert_raises(ZeroDivisionError, lambda: 2.0 // 0.0)
assert_raises(ZeroDivisionError, lambda: 2.0 % 0.0)
assert_raises(ZeroDivisionError, divmod, 2.0, 0.0)

assert (1.2).__int__() == 1
assert (1.2).__float__() == 1.2
assert (1.2).__trunc__() == 1
assert int(1.2) == 1
assert float(1.2) == 1.2
assert math.trunc(1.2) == 1
assert_raises(OverflowError, float("inf").__trunc__)
assert_raises(ValueError, float("nan").__trunc__)
assert isinstance((0.5).__round__(), int)
assert isinstance((1.5).__round__(), int)
assert (0.5).__round__() == 0
assert (1.5).__round__() == 2
assert isinstance((0.5).__round__(0), float)
assert isinstance((1.5).__round__(0), float)
assert (0.5).__round__(0) == 0.0
assert (1.5).__round__(0) == 2.0
assert isinstance((0.5).__round__(None), int)
assert isinstance((1.5).__round__(None), int)
assert (0.5).__round__(None) == 0
assert (1.5).__round__(None) == 2
assert (1.234).__round__(1) == 1.2
assert (1.23456).__round__(4) == 1.2346
assert (1.00000000001).__round__(10) == 1.0
assert (1234.5).__round__(-2) == 1200
assert (1.234).__round__(-1) == 0
assert (1.23456789).__round__(15) == 1.23456789
assert (1.2e300).__round__(-500) == 0
assert (1.234).__round__(500) == 1.234
assert (1.2e-300).__round__(299) == 0
assert_raises(TypeError, lambda: (0.5).__round__(0.0))
assert_raises(TypeError, lambda: (1.5).__round__(0.0))
assert_raises(OverflowError, float("inf").__round__)
assert_raises(ValueError, float("nan").__round__)

assert 1.2**2 == 1.44
assert_raises(OverflowError, lambda: 1.2 ** (10**1000))
assert 3**2.0 == 9.0

assert (1.7).real == 1.7
assert (1.7).imag == 0.0
assert (1.7).conjugate() == 1.7
assert (1.3).is_integer() == False
assert (1.0).is_integer() == True

assert (0.875).as_integer_ratio() == (7, 8)
assert (-0.875).as_integer_ratio() == (-7, 8)
assert (0.0).as_integer_ratio() == (0, 1)
assert (11.5).as_integer_ratio() == (23, 2)
assert (0.0).as_integer_ratio() == (0, 1)
assert (2.5).as_integer_ratio() == (5, 2)
assert (0.5).as_integer_ratio() == (1, 2)
assert (2.1).as_integer_ratio() == (4728779608739021, 2251799813685248)
assert (-2.1).as_integer_ratio() == (-4728779608739021, 2251799813685248)
assert (-2100.0).as_integer_ratio() == (-2100, 1)
assert (2.220446049250313e-16).as_integer_ratio() == (1, 4503599627370496)
assert (1.7976931348623157e308).as_integer_ratio() == (
    179769313486231570814527423731704356798070567525844996598917476803157260780028538760589558632766878171540458953514382464234321326889464182768467546703537516986049910576551282076245490090389328944075868508455133942304583236903222948165808559332123348274797826204144723168738177180919299881250404026184124858368,
    1,
)
assert (2.2250738585072014e-308).as_integer_ratio() == (
    1,
    44942328371557897693232629769725618340449424473557664318357520289433168951375240783177119330601884005280028469967848339414697442203604155623211857659868531094441973356216371319075554900311523529863270738021251442209537670585615720368478277635206809290837627671146574559986811484619929076208839082406056034304,
)

assert_raises(OverflowError, float("inf").as_integer_ratio)
assert_raises(OverflowError, float("-inf").as_integer_ratio)
assert_raises(ValueError, float("nan").as_integer_ratio)

assert str(1.0) == "1.0"
assert str(0.0) == "0.0"
assert str(-0.0) == "-0.0"
assert str(1.123456789) == "1.123456789"

# Test special case for lexer, float starts with a dot:
a = 0.5
assert a == 0.5
assert 3.14 == float("3.14")
src = """
a = 3._14
"""

with assert_raises(SyntaxError):
    exec(src)
src = """
a = 3.__14
"""

with assert_raises(SyntaxError):
    exec(src)

src = """
a = 3.1__4
"""

with assert_raises(SyntaxError):
    exec(src)

fromHex = float.fromhex


def identical(x, y):
    if math.isnan(x) or math.isnan(y):
        if math.isnan(x) == math.isnan(y):
            return
    elif x == y and (x != 0.0 or math.copysign(1.0, x) == math.copysign(1.0, y)):
        return
    raise SyntaxError(f"{x} not identical to {y}")


invalid_inputs = [
    "infi",  # misspelt infinities and nans
    "-Infinit",
    "++inf",
    "-+Inf",
    "--nan",
    "+-NaN",
    "snan",
    "NaNs",
    "nna",
    "an",
    "nf",
    "nfinity",
    "inity",
    "iinity",
    "0xnan",
    "",
    " ",
    "x1.0p0",
    "0xX1.0p0",
    "+ 0x1.0p0",  # internal whitespace
    "- 0x1.0p0",
    "0 x1.0p0",
    "0x 1.0p0",
    "0x1 2.0p0",
    "+0x1 .0p0",
    "0x1. 0p0",
    "-0x1.0 1p0",
    "-0x1.0 p0",
    "+0x1.0p +0",
    "0x1.0p -0",
    "0x1.0p 0",
    "+0x1.0p+ 0",
    "-0x1.0p- 0",
    "++0x1.0p-0",  # double signs
    "--0x1.0p0",
    "+-0x1.0p+0",
    "-+0x1.0p0",
    "0x1.0p++0",
    "+0x1.0p+-0",
    "-0x1.0p-+0",
    "0x1.0p--0",
    "0x1.0.p0",
    "0x.p0",  # no hex digits before or after point
    "0x1,p0",  # wrong decimal point character
    "0x1pa",
    "0x1p\uff10",  # fullwidth Unicode digits
    "\uff10x1p0",
    "0x\uff11p0",
    "0x1.\uff10p0",
    "0x1p0 \n 0x2p0",
    "0x1p0\0 0x1p0",  # embedded null byte is not end of string
]

for x in invalid_inputs:
    assert_raises(ValueError, lambda: fromHex(x))

value_pairs = [
    ("inf", INF),
    ("-Infinity", -INF),
    ("NaN", NAN),
    ("1.0", 1.0),
    ("-0x.2", -0.125),
    ("-0.0", -0.0),
]
whitespace = ["", " ", "\t", "\n", "\n \t", "\f", "\v", "\r"]

for inp, expected in value_pairs:
    for lead in whitespace:
        for trail in whitespace:
            got = fromHex(lead + inp + trail)
            identical(got, expected)

MAX = fromHex("0x.fffffffffffff8p+1024")  # max normal
MIN = fromHex("0x1p-1022")  # min normal
TINY = fromHex("0x0.0000000000001p-1022")  # min subnormal
EPS = fromHex("0x0.0000000000001p0")  # diff between 1.0 and next float up

# two spellings of infinity, with optional signs; case-insensitive
identical(fromHex("inf"), INF)
identical(fromHex("+Inf"), INF)
identical(fromHex("-INF"), -INF)
identical(fromHex("iNf"), INF)
identical(fromHex("Infinity"), INF)
identical(fromHex("+INFINITY"), INF)
identical(fromHex("-infinity"), -INF)
identical(fromHex("-iNFiNitY"), -INF)

# nans with optional sign; case insensitive
identical(fromHex("nan"), NAN)
identical(fromHex("+NaN"), NAN)
identical(fromHex("-NaN"), NAN)
identical(fromHex("-nAN"), NAN)

# variations in input format
identical(fromHex("1"), 1.0)
identical(fromHex("+1"), 1.0)
identical(fromHex("1."), 1.0)
identical(fromHex("1.0"), 1.0)
identical(fromHex("1.0p0"), 1.0)
identical(fromHex("01"), 1.0)
identical(fromHex("01."), 1.0)
identical(fromHex("0x1"), 1.0)
identical(fromHex("0x1."), 1.0)
identical(fromHex("0x1.0"), 1.0)
identical(fromHex("+0x1.0"), 1.0)
identical(fromHex("0x1p0"), 1.0)
identical(fromHex("0X1p0"), 1.0)
identical(fromHex("0X1P0"), 1.0)
identical(fromHex("0x1P0"), 1.0)
identical(fromHex("0x1.p0"), 1.0)
identical(fromHex("0x1.0p0"), 1.0)
identical(fromHex("0x.1p4"), 1.0)
identical(fromHex("0x.1p04"), 1.0)
identical(fromHex("0x.1p004"), 1.0)
identical(fromHex("0x1p+0"), 1.0)
identical(fromHex("0x1P-0"), 1.0)
identical(fromHex("+0x1p0"), 1.0)
identical(fromHex("0x01p0"), 1.0)
identical(fromHex("0x1p00"), 1.0)
identical(fromHex(" 0x1p0 "), 1.0)
identical(fromHex("\n 0x1p0"), 1.0)
identical(fromHex("0x1p0 \t"), 1.0)
identical(fromHex("0xap0"), 10.0)
identical(fromHex("0xAp0"), 10.0)
identical(fromHex("0xaP0"), 10.0)
identical(fromHex("0xAP0"), 10.0)
identical(fromHex("0xbep0"), 190.0)
identical(fromHex("0xBep0"), 190.0)
identical(fromHex("0xbEp0"), 190.0)
identical(fromHex("0XBE0P-4"), 190.0)
identical(fromHex("0xBEp0"), 190.0)
identical(fromHex("0xB.Ep4"), 190.0)
identical(fromHex("0x.BEp8"), 190.0)
identical(fromHex("0x.0BEp12"), 190.0)

# moving the point around
pi = fromHex("0x1.921fb54442d18p1")
identical(fromHex("0x.006487ed5110b46p11"), pi)
identical(fromHex("0x.00c90fdaa22168cp10"), pi)
identical(fromHex("0x.01921fb54442d18p9"), pi)
identical(fromHex("0x.03243f6a8885a3p8"), pi)
identical(fromHex("0x.06487ed5110b46p7"), pi)
identical(fromHex("0x.0c90fdaa22168cp6"), pi)
identical(fromHex("0x.1921fb54442d18p5"), pi)
identical(fromHex("0x.3243f6a8885a3p4"), pi)
identical(fromHex("0x.6487ed5110b46p3"), pi)
identical(fromHex("0x.c90fdaa22168cp2"), pi)
identical(fromHex("0x1.921fb54442d18p1"), pi)
identical(fromHex("0x3.243f6a8885a3p0"), pi)
identical(fromHex("0x6.487ed5110b46p-1"), pi)
identical(fromHex("0xc.90fdaa22168cp-2"), pi)
identical(fromHex("0x19.21fb54442d18p-3"), pi)
identical(fromHex("0x32.43f6a8885a3p-4"), pi)
identical(fromHex("0x64.87ed5110b46p-5"), pi)
identical(fromHex("0xc9.0fdaa22168cp-6"), pi)
identical(fromHex("0x192.1fb54442d18p-7"), pi)
identical(fromHex("0x324.3f6a8885a3p-8"), pi)
identical(fromHex("0x648.7ed5110b46p-9"), pi)
identical(fromHex("0xc90.fdaa22168cp-10"), pi)
identical(fromHex("0x1921.fb54442d18p-11"), pi)
identical(fromHex("0x1921fb54442d1.8p-47"), pi)
identical(fromHex("0x3243f6a8885a3p-48"), pi)
identical(fromHex("0x6487ed5110b46p-49"), pi)
identical(fromHex("0xc90fdaa22168cp-50"), pi)
identical(fromHex("0x1921fb54442d18p-51"), pi)
identical(fromHex("0x3243f6a8885a30p-52"), pi)
identical(fromHex("0x6487ed5110b460p-53"), pi)
identical(fromHex("0xc90fdaa22168c0p-54"), pi)
identical(fromHex("0x1921fb54442d180p-55"), pi)

assert (0.0).hex() == "0x0.0p+0"
assert (-0.0).hex() == "-0x0.0p+0"
assert (1.0).hex() == "0x1.0000000000000p+0"
assert (-1.5).hex() == "-0x1.8000000000000p+0"
assert float("inf").hex() == "inf"
assert float("-inf").hex() == "-inf"
assert float("nan").hex() == "nan"

assert float(math.nan) is float(math.nan)

# Test float exponent:
assert 1 if 1 else 0 == 1

a = 3.0
assert a.__eq__(3) is True
assert a.__eq__(3.0) is True
assert a.__eq__(3.00000) is True
assert a.__eq__(3.01) is False

pi = 3.14
assert pi.__eq__(3.14) is True
assert pi.__ne__(3.14) is False
assert pi.__eq__(3) is False
assert pi.__ne__(3) is True
assert pi.__eq__("pi") is NotImplemented
assert pi.__ne__("pi") is NotImplemented

assert pi.__eq__(float("inf")) is False
assert pi.__ne__(float("inf")) is True
assert float("inf").__eq__(pi) is False
assert float("inf").__ne__(pi) is True
assert float("inf").__eq__(float("inf")) is True
assert float("inf").__ne__(float("inf")) is False
assert float("inf").__eq__(float("nan")) is False
assert float("inf").__ne__(float("nan")) is True

assert pi.__eq__(float("nan")) is False
assert pi.__ne__(float("nan")) is True
assert float("nan").__eq__(pi) is False
assert float("nan").__ne__(pi) is True
assert float("nan").__eq__(float("nan")) is False
assert float("nan").__ne__(float("nan")) is True
assert float("nan").__eq__(float("inf")) is False
assert float("nan").__ne__(float("inf")) is True

assert float(1e15).__repr__() == "1000000000000000.0"
assert float(1e16).__repr__() == "1e+16"
assert float(1e308).__repr__() == "1e+308"
assert float(1e309).__repr__() == "inf"
assert float(1e-323).__repr__() == "1e-323"
assert float(1e-324).__repr__() == "0.0"
assert float(1e-5).__repr__() == "1e-05"
assert float(1e-4).__repr__() == "0.0001"
assert float(1.2345678901234567890).__repr__() == "1.2345678901234567"
assert float(1.2345678901234567890e308).__repr__() == "1.2345678901234567e+308"

assert format(1e15) == "1000000000000000.0"
assert format(1e16) == "1e+16"
assert format(1e308) == "1e+308"
assert format(1e309) == "inf"
assert format(1e-323) == "1e-323"
assert format(1e-324) == "0.0"
assert format(1e-5) == "1e-05"
assert format(1e-4) == "0.0001"
assert format(1.2345678901234567890) == "1.2345678901234567"
assert format(1.2345678901234567890e308) == "1.2345678901234567e+308"

assert float("0_0") == 0.0
assert float(".0") == 0.0
assert float("0.") == 0.0
assert float("-.0") == 0.0
assert float("+.0") == 0.0

assert_raises(ValueError, lambda: float("0._0"))
assert_raises(ValueError, lambda: float("0_.0"))
assert_raises(ValueError, lambda: float("._0"))
assert_raises(ValueError, lambda: float("0_"))
assert_raises(ValueError, lambda: float("0._"))
assert_raises(ValueError, lambda: float("_.0"))
assert_raises(ValueError, lambda: float("._0"))

assert 3.0 % -2.0 == -1.0
assert -3.0 % 2.0 == 1.0
